/**
* Returns a table listing the output parameters of this algorithm (usually just labels used to
* obtain output image names later).
*
* @return A parameter table listing the outputs of this algorithm.
*/
public ParameterTable createOutputParameters() {
final ParameterTable table = new ParameterTable();
try {
table.put(new ParameterImage(AlgorithmParameters.RESULT_IMAGE));
} catch (final ParserException e) {
// this shouldn't really happen since there isn't any real parsing going on...
e.printStackTrace();
}
return table;
}
/**
* Returns a table listing the input parameters of this algorithm (which should match up with the
* scripting parameters used in {@link #setGUIFromParams()}).
*
* @return A parameter table listing the inputs of this algorithm.
*/
public ParameterTable createInputParameters() {
final ParameterTable table = new ParameterTable();
try {
table.put(new ParameterExternalImage(AlgorithmParameters.getInputImageLabel(1)));
table.put(new ParameterBoolean(AlgorithmParameters.DO_OUTPUT_NEW_IMAGE, true));
} catch (final ParserException e) {
// this shouldn't really happen since there isn't any real parsing going on...
e.printStackTrace();
}
return table;
}
/**
* Returns a table listing the input parameters of this algorithm (which should match up with the
* scripting parameters used in {@link #setGUIFromParams()}).
*
* @return A parameter table listing the inputs of this algorithm.
*/
public ParameterTable createInputParameters() {
final ParameterTable table = new ParameterTable();
try {
table.put(new ParameterExternalImage(AlgorithmParameters.getInputImageLabel(1)));
table.put(new ParameterBoolean(AlgorithmParameters.DO_OUTPUT_NEW_IMAGE, true));
table.put(new ParameterBoolean(AlgorithmParameters.DO_PROCESS_WHOLE_IMAGE, true));
table.put(new ParameterBoolean(AlgorithmParameters.DO_PROCESS_3D_AS_25D, false));
table.put(new ParameterInt("search_window_side", 15));
table.put(new ParameterInt("similarity_window_side", 7));
table.put(new ParameterFloat("noise_standard_deviation", 10f));
table.put(new ParameterFloat("degree_of_filtering", 1.414f));
table.put(new ParameterBoolean("do_rician", false));
} catch (final ParserException e) {
// this shouldn't really happen since there isn't any real parsing going on...
e.printStackTrace();
}
return table;
}